Murata ACA-20RM-5-AC4-RL-ALM-C True-rms-ac ammeters with alarm function Datasheet

ACA-20RM-ALM Series
www.murata-ps.com
True-rms-AC Ammeters with Alarm Function
FEATURES
■
User–settable, visual alarm function
■
Flashing display indicates overcurrent faults
■
Measures the true-rms value of complex ac current
waveforms
■
Includes built-in current transformers
■
Ideal for measuring current in sensitive IT applications
■
Available in two input ranges: 0-30.0A, and 0 to 50A
■
50A model features convenient split-core CT
■
Easy-to-read, red LED display with 0.37"/9.4mm high
digits
■
Two AC power options: 85-140Vac & 170-264Vac
(50/60Hz)
■
2000V isolation between ac supply and load conductor
Murata Power Solutions’ ACA-20RM-ALM Series digital ac ammeters accurately display
the true-rms value of non-sinusoidal ac currents and provide a user-settable, over current
alarm function. When the preset over current level is exceeded, the LED display continuously flashes from high to low intensity. All models are totally self-contained—no other
user-supplied components are required. A built-in current transformer greatly simplifies
most ac ammeter applications: just pass the load conductor through the built-in current
transformer, apply ac power, and the ammeter is fully operational.
Two input ranges are available: 0-30.0 Amps, or 0 to 50.0 Amps, both with 0.1A resolution. The 50 Amp model features a convenient split-core type current transformer which
can be clamped around insulated live conductors. Two power supply options are available:
85-140V (47-63Hz), and 170-264V (47-63Hz). Power consumption from a nominal 120V or
220V ac supply is less than 50mA. Super-stable components and an rms-to-dc converter
circuit combine to achieve excellent performance when measuring the complex, non-sinusoidal, ac currents found in today’s computer/telecom equipment.
All ACA-20RM-ALM Series true-rms ammeters feature full-size, 0.37" (9.4mm) high,
3½ digit, bright red LED-displays and a built-in bezel/filter assembly that includes metal
fasteners. They are also panel cutout compatible with MPS’s DMS-20RM Series of rmsreading ac voltage monitors, making ACA-20RM-ALM ammeters the ideal upgrade for
today’s sophisticated instrumentation.
CAL.
+
3½ DIGIT
A/D CONVERTER
–
+V
–V
LED DISPLAY
rms-to-DC
CONVERTER
(L1)
BUILT-IN
CURRENT
TRANSFORMER
POWER
CONVERTER
A
B
TB1
For full details go to
www.murata-ps.com/rohs
MEASURED AC
LOAD CURRENT
AC INPUT POWER
Figure 1. ACA-20RM-ALM Series simplified schematic
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MPM_ACA-20RM-ALM.A03 Page 1 of 5
ACA-20RM-ALM Series
True-rms-AC Ammeters with Alarm Function
➀ Specified full-scale currents are those passing through the ammeter’s built-in
current transformer’s primary load-circuit. See Notes 2 and 3 below for additional model-specific information.
Performance/Functional Specifications
Typical at TA = +25°C, unless otherwise noted.
Rated Full-Scale Current ➀
Min.
Typ.
Max.
Units
ACA-20RM-4-ACX-RL-ALM
—
—
50.0
Amperes
ACA-20RM-5-ACX-RL-ALM
—
—
30.0
Amperes
Overcurrent Rating ➁
1.5 x Rated Full-Scale Current
Performance
Sampling Rate
2.5 Samples per second
±0.4%FS ±3 Counts with 60Hz
Sine-Wave Input
Accuracy ➂
➁ The overcurrent rating of 1.5 x the rated full-scale current is a continuous rating
and applies to the current passing through the built in current transformer only,
it does not apply to any external circuit-wiring or external loads. Accuracy is
guaranteed up to the rated current level.
➂ Specified accuracy applies to inputs with crest factors (CF) up to 2.0, where CF
= Vpeak/Vrms. Crest factors of 2 to 5 introduce an additional error of ±3% of full
scale. Ammeters are calibrated with a near full-scale 60Hz sine-wave current
flowing through the ammeter’s built-in CT.
➃ All specified maximum power supply currents are steady state; larger surge
currents can occur at initial application of line power.
Measurement Type
rms Responding, Crest Factors of 1-5
Temperature Drift (0 to 60 °C)
—
±0.2
±0.4
Counts/ºC
Ordering Information
Zero-Current Reading (within
30 sec.)
–001
000
001
Counts
ACA-20RM-4-AC3-RL-ALM-C
ACA-20RM-4-AC4-RL-ALM-C
50.0A Range (split-core CT), 85-140Vac power
50.0A Range (split core CT), 170-264Vac power
Dielectric Withstanding Voltage
2000
—
—
Vdc
ACA-20RM-5-AC3-RL-ALM-C
ACA-20RM-5-AC4-RL-ALM-C
30.0A Range, 85-140Vac power
30.0A Range, 170-264Vac power
ACA-20RM-X-AC3-RL-ALM
85
120
140
Vac/47-63Hz
ACA-20RM-X-AC4-RL-ALM
170
220
264
Vac/47-63Hz
ACA-20RM-X-AC3-RL-ALM
—
30
50
mA/47-63Hz
ACA-20RM-X-AC4-RL-ALM
—
30
50
mA/47-63Hz
Power Supply Voltage
Power Supply Current ➃
Alarm Function
Display indication
Flashing Display with actual current
reading and display intensity change
Settable range
ACA-20RM-4-ACX-RL-ALM
13
45
50
Amps
ACA-20RM-5-ACX-RL-ALM
8
24
30
Amps
Power Supply Terminal Block
Wire Size
16-22AWG, Solid or stranded
Insulation Strip Length
0.250 inches
Screw Tightening Torque
3.6 pounds-inches (0.4Nm)
Rated Voltage
310Vac
Display
Display Type and Size
3½ Digit Red LED, 0.37”/9.4mm High
Overrange Indication
“1___”
Fixed, model dependent
(see full-scale input current)
Decimal Point
Physical/Environmental
Operating Temperature
Storage Temperature
Humidity (non-condensing)
Dimensions
0
—
+60
°C
–40
—
+75
°C
0
—
85
%
Model dependent, see page 4 & 5
Weight
ACA-20RM-4-XXX-XX-ALM
1.5 Ounces (43 grams) nominal
ACA-20RM-5-XXX-XX-ALM
2.1 Ounces (60 grams) nominal
TECHNICAL NOTES
IMPORTANT! To ensure safe and reliable operation, ACA-20RMALM ammeters must be installed and serviced by qualified
technical personnel. Contact Murata Power Solutions if there is
any doubt regarding ammeter setup, installation, or operation.
1. Measurement Type: ACA-20RM-ALM ac ammeters employ a
true-rms input circuit to measure current flowing through L1. Stated
accuracy specifications are measured using a sine-wave current
at, or close to, the ammeter’s full-scale input range, at nominal line
frequency of 60Hz.
2. Calibration (Potentiometer R7): Periodic recalibration of ACA20RM-ALM ammeters is not required under normal, indoor operating
environments. If user calibration is necessary, it must be performed
by qualified technical personnel. Calibration is performed with potentially lethal voltages applied to the ACA-20RM-ALM and its associated
wiring. A plastic, fully-insulated adjusting tool must be used to access
the calibration potentiometer R7 located on the back of the ammeter
(see ‘Mechanical Specifications’ section). Contact MPS if additional
information is required regarding calibration, setup, or any other
technical issue pertaining to ACA-20RM-ALM ammeters.
3. Overcurrent Alarm Setup and Adjustment (Potentiometer R3):
ACA-20RM-ALM ammeters feature a user-settable, overcurrent visual
alarm indication which can be used to alert operators that a load circuit breaker or fuse is approaching an overload condition. When the
load current sensed by L1 exceeds this preset level, the ammeter’s
LED display will flash from normal intensity to dim intensity at rate of
approximately 1.5 times per second.
As shown in Figure 3, the alarm circuit consists of jumper JP1, and
adjustment potentiometer R3. As shipped, R3 is factory set to trip
when the load current is approximately 24 Amps for 30A models, and
approximately 45 Amps for 50A models. When R3 is set to its maximum clockwise position, the alarm indication will not activate until the
load current flowing through L1 exceeds the maximum rating of the
ammeter, i.e., above 30.0A, or above 50.0A, depending on the model.
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MPM_ACA-20RM-ALM.A03 Page 2 of 5
ACA-20RM-ALM Series
True-rms-AC Ammeters with Alarm Function
To adjust the overcurrent alarm set-point level:
A. Turn off power to the ACA-20RM-ALM (i.e., the power source connected to TB1).
B. Carefully remove the shorting jumper across JP1 from its ‘normal
operation position’ across terminals 2 and 3 and place it across JP1
terminals 1 and 2.
C. Re-apply power to TB1 and, using a plastic insulated adjusting tool,
adjust R3 so the ammeter’s display shows the desired overcurrent
trip level in Amps.
D. Turn off power to the ACA-20RM-ALM and return JP1’a shorting
jumper back to its ‘normal operation position’ across terminals 2
and 3. Re-apply power to TB1 to resume normal operation. If possible, after the ammeter is re-configured for normal operation, the
load current should be slowly increased to verify the visual alarm
operates when the load current exceeds the preset level.
6. Connector Torque Ratings: It is important to tighten TB1’s, screwterminals to their rated torque specification of 3.6 pound-inches
(0.4Nm). Proper tightening will minimize connector losses and ensure
safe, reliable operation.
7. Isolation: The built-in current transformer L1 provides a minimum
of 2000Vdc isolation between the load conductor and the ammeter’s
supply voltage connected to TB1.
8. Split-Core CT (Clamp-on) Models: Both 50A models feature a splitcore current transformer that can be clamped around a properly insulated live conductor without having to disconnect or remove power
from the load circuit. This live-connection capability can only be used
if the load’s power source is electrically isolated (see technical note
7) from the ammeter’s own power source that’s connected to TB1.
The ammeter’s ac power supply must always be denergized before
making connections to TB1. Refer to the ‘Panel Installation’ section of
this data sheet for additional information.
Please note, the load circuit does not need to be turned off to adjust the
overcurrent alarm set point. Current flowing through L1 while JP1 is
across terminals 1 and 2 will not be measured. Once tripped, the alarm
set point function has a hysteresis of approximately 0.5A.
BACK VIEW
A
FUSED AC POWER
TB1
B
The overcurrent alarm function can also be adjusted with JP1 in its
normal operation position if the desired alarm overcurrent-level is
actually flowing through L1 (i.e., with a live load). For example, with
a 20 Amp load current flowing through L1, and with JP1 in its normal
operation position, slowly adjust R3 until the display starts flashing on
and off. Using this “live load” adjustment method eliminates the need
to turn off power to TB1 or reconfiguring JP1.
L1
4. Wire Gauges and Fusing: Wires specified in the Functional Specifications section must be used for making connections to ACA-20RM-ALM
Series ammeters. All power-supply and load wiring must be rated for
the supply voltages and currents they will conduct and must comply
with any code or application-mandated requirements pertaining to the
user’s specific installation.
TO AC LOAD
The supply wires connected to both the ammeter and the load must be
fused according to the current rating of the wire gauge being used, in
accordance with applicable regulatory codes. Also, wire insulation should
be stripped to within +/–10% of the stated dimensions, and wires should
be inserted into TB1 such that their insulation is not pinched by the screw
terminal. TB1 is to be used only for powering the meter’s internal circuitry,
it must not be used to supply current to external loads.
Figure 2. Typical wiring diagram
BACK VIEW
3
2
All models draw minimal steady-state supply currents (50mA max.),
and in most applications, they can be fused according to the supply
wire’s maximum amperage rating. However, these products can draw
significantly higher surge currents for brief periods when the ac line
voltage is initially applied.
R7
CAL
TB1
5. AC Supply Polarity and Grounding: The two supply inputs, TB1-A and
TB1-B, on ACA-20RM-ALM ammeters are not in themselves polarity
sensitive, that is, they have no internal “AC LO” or “AC HI” designations. ACA-20RM-ALM ammeters do not include or require a connection to earth/chassis ground.
1
JP1
Normal Operation
JP1
3
2
1
R3
ALARM
3
2
1
JP1
Overcurrent
Alarm Adjustment
Figure 3. Alarm circuit component location
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MPM_ACA-20RM-ALM.A03 Page 3 of 5
ACA-20RM-ALM Series
True-rms-AC Ammeters with Alarm Function
PANEL INSTALLATION
All connections to ACA-20RM-ALM Series ammeters must be made after
the ammeter is securely attached to the panel and with all associated
load and supply voltages de-energized (off), using extreme caution and
observing all safety measures applicable to the user’s installation.
plastic standoffs over the bezel’s threaded studs. Install the ACA-20RMALM pc-board assembly as shown and then attach and securely tighten
all four hex nuts. Use only the factory-supplied hardware as the use
of substitute hardware could result in an unsafe installation and/or
adversely affect the reliability of the ammeter.
Care should be exercised when passing conductors through the ammeter’s built-in current transformer L1. The installed wire-positions should
be such that minimal mechanical forces are applied to L1, TB1, or to the
ammeter itself. In high-vibration environments, it is strongly recommended that adequate strain reliefs be used for all wiring.
The recommended range of panel thickness that can be used with the
supplied hardware is 0.040 inches (1.0mm) to 0.125 inches (3.2mm).
Panel thickness outside of this range will require additional user-supplied
hardware or modifications.
Using Figure 4 as a guide, carefully insert the bezel/color filter assembly
into the panel opening. From the rear of the panel, install the four round
PANEL
0.032 (0.8) Thick
Gasket
Standoff
Gasket
Nut
Standoff
0.190 (4.83)
Board-Cutout
Bezel
ACA-20RM
AC Ammeter
SIDE VIEW
Figure 4. Panel Installation
BEZEL AND PANEL CUTOUT
RECOMMENDED DRILL AND
PANEL CUTOUT DIMENSIONS
0.187
(4.75)
0.69
(17.5)
FRONT VIEW
1.280
(32.51)
INTERNAL CORNER RADII:
0.032 (0.81) MAX.
1.07
(27.18)
0.116 (2.95)
0.838
(21.29)
1.336 (33.93)
0.145 (3.68)
1.826 (46.38)
1.626 (41.30)
0.093 (2.362) DIAMETER (4 REQUIRED)
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MPM_ACA-20RM-ALM.A03 Page 4 of 5
ACA-20RM-ALM Series
True-rms-AC Ammeters with Alarm Function
MECHANICAL SPECIFICATIONS
30 AMP MODELS
FRONT VIEW
50 AMP SPLIT-CORE CT MODELS
FRONT VIEW
2.100
(53.34)
2.100
(53.34)
100-10
M9
100-10
M9
100-10
M9
100-10
M9
1.400
(35.56)
1.400
(35.56)
BACK VIEW
BACK VIEW
A
A
B
B
TB1
B1
Lead Length
5.0 (127.0) min.
Lead Length
2.0 (50.5) min.
0.35
(8.9)
Diameter
SIDE VIEW
1.575
(40.00)
MECHANICAL DIMENSIONS: Inches (mm)
TOLERANCES:
2 PL DEC ±0.02 (±0.51)
3 PL DEC ±0.010 (±0.254)
0.40
(10.2)
Diameter
0.984
(24.99)
SIDE VIEW
1.024
(26.01)
0.250
(6.35)
0.480
(12.19)
0.250
(6.35)
Murata Power Solutions, Inc.
11 Cabot Boulevard, Mansfield, MA 02048-1151 U.S.A.
ISO 9001 and 14001 REGISTERED
0.551
(14.00)
0.480
(12.19)
Murata Power Solutions, Inc. makes no representation that the use of its products in the circuits described herein, or the use of other
technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not imply
the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without
notice.
© 2010 Murata Power Solutions, Inc.
www.murata-ps.com/locations
email: [email protected]
10 Nov 2010
MPM_ACA-20RM-ALM.A03 Page 5 of 5
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